IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0983780
(2007-11-09)
|
등록번호 |
US-7624711
(2009-12-16)
|
우선권정보 |
DE-10 2005 010 182(2005-03-03); DE-10 2005 012 081(2005-03-14); DE-10 2005 049 671(2005-10-18) |
발명자
/ 주소 |
|
출원인 / 주소 |
- Hydraulik Ring GmbH
- Entec Consulting GmbH
|
대리인 / 주소 |
Lipsitz & McAllister, LLC
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
10 |
초록
▼
A variable mechanical valve control for an internal combustion engine is provided having an underhead camshaft for adjusting a valve stroke and an opening and closing time, making it possible to achieve a very compact transmission gear between the push rod drive and the intake and exhaust valves, to
A variable mechanical valve control for an internal combustion engine is provided having an underhead camshaft for adjusting a valve stroke and an opening and closing time, making it possible to achieve a very compact transmission gear between the push rod drive and the intake and exhaust valves, to reduce the number of components required for the transmission gear, and to obtain a mechanical, completely variable valve train with an underhead camshaft.
대표청구항
▼
What is claimed is: 1. A variable mechanical valve control for an internal combustion engine having a rocker arm or pivoting lever for adjusting a valve stroke and an opening and closing time of at least one intake and/or exhaust gas exchange valve, comprising: a camshaft having a cam contour, the
What is claimed is: 1. A variable mechanical valve control for an internal combustion engine having a rocker arm or pivoting lever for adjusting a valve stroke and an opening and closing time of at least one intake and/or exhaust gas exchange valve, comprising: a camshaft having a cam contour, the cam contour having a subcontour for opening and a subcontour for closing the intake and/or exhaust valve, a transmission gear, which has an intermediate lever having an operating curve, a slide gate for guiding the intermediate lever, a contact surface of the intermediate lever, which contact surface is supported on a control shaft having an eccentric contour, whereby the rocker arm or pivoting lever, which is driven via the transmission gear by means of the camshaft, actuates the intake and/or exhaust valve, wherein the intermediate lever is linked by way of an axle to a camshaft roller in such a way that a slide gate roller, which is rotatably mounted on the axle and is driven by the camshaft, is moved in the slide gate by way of the camshaft roller and the axle, whereby the contact surface on the intermediate lever is supported on the control shaft and the rocker arm or pivoting lever is movable by means of the operating curve of the intermediate lever, by way of which the gas exchange valve will be opened and/or closed, whereby a phase shift between the camshaft and the control shaft, rotating at the same speed, is provided for in such a way that, during the variable valve control for different valve strokes, either a valve opening time point or a valve closing time point is the same for the different valve strokes and whereby, on the camshaft and/or on the control shaft, a phase shifter for shifting a phase position of valve liftings of the gas exchange valve is provided. 2. The variable mechanical valve control according to claim 1, wherein the camshaft has the same direction of rotation as the control shaft. 3. The variable mechanical valve control according to claim 1, wherein the camshaft has an opposing direction of rotation to the control shaft. 4. The variable mechanical valve control according to claim 1, wherein one of a path of the slide gate is defined by an arc around a center point of a lever roller and a first portion of the operating curve is defined by an arc around a center point of the slide gate roller. 5. The variable mechanical valve control according to claim 1, wherein, for an internal combustion engine with at least two intake and/or exhaust valves, the corresponding intermediate levers and/or the rocker arms or pivoting levers for valve actuation have different geometries and are mounted on a common axle. 6. The variable mechanical valve control according to claim 1, wherein, for an internal combustion engine with at least two intake and/or exhaust valves, the corresponding intermediate levers and/or the rocker arms or pivoting levers for valve actuation have different geometries and are mounted on different axles. 7. The variable mechanical valve control according to claim 1, wherein the phase shifter is arranged on a gear between the camshaft and the control shaft. 8. The variable mechanical valve control according to claim 1, wherein, for achieving a higher variability of the valve liftings, an additional phase shifter is provided on one of the camshaft, the control shaft, or the intermediate lever. 9. The variable mechanical valve control according to claim 1, wherein, depending on a phase position of the camshaft or the control shaft with respect to each other, valve opening time points or valve closing time points are differently adjustable. 10. The variable mechanical valve control according to claim 1, wherein at least one of the camshaft is adapted to be shifted in phase with respect to the control shaft, and the control shaft is adapted to be shifted in phase with respect to the camshaft. 11. The variable mechanical valve control according to claim 1, wherein, in order to compensate for valve play between the valve and valve train components, one of a mechanical valve play compensating element or a hydraulic valve play compensating mechanism is provided. 12. The variable mechanical valve control according to claim 1, wherein the rocker arm or pivoting lever actuates simultaneously two gas exchange valves by way of a valve bridge. 13. The variable mechanical valve control according to claim 1, wherein the contact surface of the intermediate lever is a component of a roller that is rotatably mounted in the intermediate lever. 14. The variable mechanical valve control according to claim 1, wherein, for certain geometric positions of components of the transmission gear, the zero stroke of a gas exchange valve is adjusted and thus at least one gas exchange valve for each cylinder is shut down. 15. The variable mechanical valve control according to claim 1, wherein, when compared to an adjustment of the intake valves, the adjustment of the exhaust valves is effected separately and differently from one another. 16. The variable mechanical valve control according to claim 1, wherein the camshaft has at least one secondary lobe on a base-circle diameter of the cam contour, by way of which, for each camshaft revolution, a second opening and closing of the intake and/or exhaust valve is effected. 17. The variable mechanical valve control according to claim 1, wherein, as means for additional independent valve stroke opening and closing for each camshaft revolution, a second actuating system for a secondary stroke is provided, whereby, through the second actuating system, the valve opening of the gas exchange valves is effected differently and independently from the opening of a primary stroke. 18. The variable mechanical valve control according to claim 1, wherein, for adjusting one of the intermediate lever, the rocker arm, or the pivoting lever, means for fine adjustment are provided on at least one of the axles and the slide gate. 19. The variable mechanical valve control according to claim 1, wherein geometries of the valve train actuation of the intermediate lever of at least one of the rocker arms, the pivoting levers, the cam contours of the camshaft, and eccentric disks of the control shaft are constructed in such a way that different valve strokes of neighboring valves are adjustable. 20. The variable mechanical valve control according to claim 1, wherein the intermediate lever is pretensioned by means of at least one spring.
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